EPJ Web of Conferences (Feb 2012)

Study and comparison of the decay modes of the systems formed in the reactions 78Kr+40Ca and 86Kr+48Ca at 10 AMeV

  • Verde G.,
  • Trifirò A.,
  • Schroeder W.U.,
  • Spadaccini G.,
  • Russotto P.,
  • Rosato E.,
  • Rizzo F.,
  • Quinlann M.,
  • Porto F.,
  • Piasecki E.,
  • Papa M.,
  • Pagano A.,
  • Mazurek K.,
  • Loria D.,
  • Lombardo I.,
  • LeNeindre N.,
  • Lebhertz D.,
  • Lautesse P.,
  • Lanzalone G.,
  • LaGuidara E.,
  • Henry E.,
  • Geraci E.,
  • Frankland J.D.,
  • D'Onofrio A.,
  • Colonna M.,
  • Chbihi A.,
  • Cardella G.,
  • Borderie B.,
  • Bonnet E.,
  • Berceanu I.,
  • Beck C.,
  • Auditore L.,
  • Amorini F.,
  • Vigilante M.,
  • Filippo E. De,
  • Ademard G.,
  • Wieleczko J.P.,
  • Commara M. La,
  • Pirrone S.,
  • Politi G.

DOI
https://doi.org/10.1051/epjconf/20122102003
Journal volume & issue
Vol. 21
p. 02003

Abstract

Read online

The first results of the ISODEC experiment, performed at the INFN Laboratori Nazionali del Sud (LNS) by using the CHIMERA detector, are presented. The principal aim of this experiment is to explore the isospin dependence of the decay modes of medium mass compound nuclei formed by fusion processes, by studying the competition between the various disintegration modes of 118,134Ba nuclei produced in the reactions 78Kr+40Ca and 86Kr+48Ca at 10 AMeV. The studied systems allow in fact to produce compound nuclei with a large variation of N/Z, and such data will also provide new constraint on sophisticated models attempting to describe statistical and/or dynamical properties of excited nuclei. The experiment complements data already obtained at 5.5 AMeV for 78,82Kr+40Ca reactions, previously realized at GANIL by using the INDRA detector. First results show a strong staggering effects in the Z distributions, as well as different isotopic composition and enrichment for the reaction products in the two systems.